Browse > Article
http://dx.doi.org/10.1016/j.net.2020.10.008

Development of a multi criteria decision analysis framework for the assessment of integrated waste management options for irradiated graphite  

Abrahamsen-Mills, Liam (National Nuclear Laboratory)
Wareing, Alan (National Nuclear Laboratory)
Fowler, Linda (National Nuclear Laboratory)
Jarvis, Richard (National Nuclear Laboratory)
Norris, Simon (Radioactive Waste Management Limited)
Banford, Anthony (National Nuclear Laboratory)
Publication Information
Nuclear Engineering and Technology / v.53, no.4, 2021 , pp. 1224-1235 More about this Journal
Abstract
An integrated waste management approach for irradiated graphite was developed during the European Commission project 'Treatment and Disposal of Irradiated Graphite and other Carbonaceous Waste'. This included the identification of potential options for the management of irradiated graphite, taking account of storage, retrieval, treatment and disposal methods. This paper describes how these options can be assessed using multi-criteria decision analysis (MCDA) for a case study relating to a generic power reactor. Criteria have been defined to account for safety, environmental, economic and socio-political factors, including radiological impact, resource usage, economic costs and risks. The impact of each option against each criterion has been assessed using data from the project and the wider literature. A linear additive approach has been used to convert the calculated impacts to scores. To account for the relative importance of the criteria, example weightings were allocated. This application has shown that MCDA approaches can be used to support complex decisions regarding irradiated graphite management, accounting for a wide range of criteria. Use of this approach by individual countries or organisations will need to account for the specific options, scores, weightings and constraints that apply, based on their national strategies, regulatory requirements and public acceptability.
Keywords
Multi criteria decision analysis; Irradiated graphite; Integrated waste management; Nuclear reactor decommissioning; Radioactive waste management;
Citations & Related Records
연도 인용수 순위
  • Reference
1 EC, D-ERICA: An Integrated Approach to the Assessment and Management of Environmental Risks from Ionising Radiation, Description of Purpose, Methodology and Application, Contract No FI6R-CT-2004-508847, European Commission, 2007.
2 A.W. Banford, H. Eccles, R.B. Jarvis, D.N. Ross, The Development of an Integrated Waste Management Approach for Irradiated Graphite, Waste Management 2010, Phoenix, AZ, USA, March 2010. March 2010.
3 M.I. Ojovan, A.J. Wickham, Treatment of irradiated graphite to meet acceptance criteria for waste disposal: problem and solutions, Mater. Res. Soc. Symp. Proc. 1665 (2014) 3-12, https://doi.org/10.1557/opl.2014.622.   DOI
4 M.I. Ojovan, A.J. Wickham, Studying the treatment of irradiated graphite, Nucl. Eng. Int. 16-18 (February 2016).
5 Department for Communities and Local Government, Multi-Criteria Analysis: a Manual, Communities and Local Government Publications, 2009. ISBN 978-1-4098-1023-0.
6 M.P. Metcalfe, A.W. Banford, H. Eccles, S. Norris, EU CARBOWASTE project: development of a toolbox for graphite waste management, J. Nucl. Mater. 436 (2013) 158-166.   DOI
7 Edgar Santoyo-Castelazo, Adisa Azapagic, Sustainability assessment of energy systems: integrating environmental, economic and social aspects, J. Clean. Prod. 80 (2014) 119-138.   DOI
8 A.O. Pavliuk, S.G. Kotlyarevskiy, E.V. Bespala, E.V. Zakharova, V.M. Ermolaev, A.G. Volkova, Experience of on-site disposal of production uranium-graphite nuclear reactor, J. Environ. Radioact. 184-185 (2018 Apr) 22-31.   DOI
9 ENSREG, TREN: High Level Group on Nuclear Safety and Waste Management (ENSREG), Working Group on Improving Spent Fuel, Radioactive Waste Management and Decommissioning Arrangements, Radioactive Waste Management Programme Guidelines for the Content and Objectives of National Programmes (Management/Safety of Radioactive Waste and Spent Fuel), HLG_r, 2008, 2008-05)_22.
10 European Commission, A Sustainable Europe for a Better World, A European Union Strategy for Sustainable Development, Brussels, 2001, p. 264, 15.5.2001COM, (final.
11 M. Danielle, Tendall and claudia R. Binder, nuclear energy in europe: uranium flow modeling and fuel cycle scenario trade-offs from a sustainability perspective, Environ. Sci. Technol. 45 (6) (2011) 2442-2449.   DOI
12 EC, Building Environmental Assessment Consensus, the SEA Manual, Fact Sheets, A Sourcebook on Strategic Environmental Assessment of Transport Infrastructure Plans and Programmes, European Commission, DG TREN, 2005.
13 P. Bardos, A. Lewis, S. Nortcliff, C. Matiotti, F. Marot, T. Sullivan, Review of Decision Support Tools for Contaminated Land Management, and Their Use in Europe, A Report from the Contaminated Land Rehabilitation Network for Environmental Technologies (CLARINET), European Commission, 2002.
14 I. Linkov, E. Moberg, Multi-Criteria Decision Analysis: Environmental Applications and Case Studies, CRC Press, 2012.
15 M. Cinelli, et al., Analysis of the potentials of multi criteria decision analysis methods to conduct sustainability assessment, Ecol. Indicat. 46 (2014) 138-148.   DOI
16 United Nations General Assembly, Integrated and Coordinated Implementation of and Follow-Up to the Outcomes of the Major United Nations Conferences and Summits in the Economic, Social and Related Fields. Follow-Up to the Outcome of the Millennium Summit, Sixtieth Session, September 2005.
17 IAEA, Processing of Irradiated Graphite to Meet Acceptance Criteria for Waste Disposal, Results of a Coordinated Research Project, International Atomic Energy Agency, 2016. IAEA-TECDOC-1790.
18 Stella Stoycheva, Dayton Marchese, Cameron Paul, Sara Padoan, Abdulsalam Juhmani, Igor Linkov, Multi-criteria decision analysis framework for sustainable manufacturing in automotive industry, J. Clean. Prod. 187 (2018) 257-272.   DOI
19 IAEA, Characterization, Treatment and Conditioning of Radioactive Graphite from Decommissioning of Nuclear Reactors, International Atomic Energy Agency, 2006. IAEA-TECDOC-1521.
20 IAEA, Progress in Radioactive Graphite Waste Management, International Atomic Energy Agency, 2010. IAEA-TECDOC-1647.
21 A. Banford, H. Eccles, M. Graves, W. von Lensa, S. Norris, CARBOWASTE - an Integrated Approach to Irradiated Graphite, Nuclear Futures, Sept/Oct 2008.
22 W. von Lensa, D. Vulpius, H.-J. Steinmetz, N. Girke, D. Bosbach, B. Thomauske, A.W. Banford, D. Bradbury, B. Grambow, M.J. Grave, A.N. Jones, L. Petit, G. Pina, Treatment and disposal of irradiated graphite and other carbonaceous waste, ATW - Internationale Zeitschrift fur Kernenergie 56 (4) (April/May 2011) 263-269. ISSN-1431-5254.
23 A. Wareing, L. Abrahamsen-Mills, L. Fowler, M. Grave, R. Jarvis, M. Metcalfe, S. Norris, A.W. Banford, Development of Integrated Waste Management Options for Irradiated Graphite, Nuclear Engineering and Technology, 2017, https://doi.org/10.1016/j.net.2017.03.001.   DOI
24 A.W. Banford, H. Eccles, D. Ross, Strategic Options for the Management of Waste Irradiated Graphite, Waste Management 2009, Phoenix, AZ, USA, March 2009.
25 I. Linkov, A. Varghese, S. Jamil, T.P. Seager, G. Kiker, T. Bridges, Multi-criteria decision analysis: a framework for structuring remedial decisions at contaminated sites, in: I. Linkov, A. Ramadan (Eds.), Comparative Risk Assessment and Environmental Decision Making, Kluwer, 2004, pp. 15-54.
26 J.C. Cegan, et al., Trends and applications of multi-criteria decision analysis in environmental sciences: literature review, Environment Systems and Decisions 37 (2017) 123-133.   DOI
27 D.J. Potter, R.B. Jarvis, A.W. Banford, L. Cordingley, M. Grave, Selection of Retrieval Techniques for Irradiated Graphite during Reactor Decommissioning, Waste Management 2011, Phoenix, AZ, USA, March 2011.
28 EC, European Commission Nuclear Science and Technology Cooperative Research on the Governance of Radioactive Waste Management (COWAM-2), Contract No FI6WCT2003-508856, Final Report, Directorate-General for Research, Euratom, 2008. EUR 23186.
29 EC, Fifth Framework Programme Development and Application of A MultiCriteria Decision Analysis Software Tool for Renewable Energy Sources (MCDA-RES), Contract NNE5-2001-273, Final Reports (1-20), European Commission, 2004.
30 M.H. Kurth, et al., Trends and applications of multi-criteria decision analysis: use in government agencies, Environment Systems and Decisions 37 (2017) 134-143.   DOI
31 Mark Velasquez, Patrick Hester, An analysis of multi-criteria decision making methods, Int. J. Oper. Res. 10 (2013) 56-66.
32 M. Getzner, C. Spash, S. Stagl, Alternatives for Environmental Valuation, Routledge, London, 2005, https://doi.org/10.4324/9780203412879.
33 European Commission, Impact assessment: next steps, in: Support of Competitiveness and Sustainable Development, 2004, p. 1377, 21.10.2004 SEC.
34 Jiang-Jiang Wang, You-Yin Jing, Chun-Fa Zhang, Jun-Hong Zhao, Review on multi-criteria decision analysis aid in sustainable energy decision-making, Renew. Sustain. Energy Rev. 13 (9) (2009) 2263-2278.   DOI
35 Stefan Roth, Stefan Hirschberg, Christian Bauer, Peter Burgherr, Roberto Dones, Thomas Heck, Warren Schenler, Sustainability of electricity supply technology portfolio, Ann. Nucl. Energy 36 (3) (2009) 409-416.   DOI
36 IAEA, Nuclear Energy Basic Principles, IAEA Nuclear Energy Series, International Atomic Energy Agency, 2008.
37 Benjamin D. Trump, maja kadenic & igor linkov (2018), A sustainable arctic: making hard decisions, Arctic Antarct. Alpine Res., 50:1.
38 I.-S. Antonopoulos, G. Perkoulidis, D. Logothetis, C. Karkanias, Ranking municipal solid waste treatment alternatives considering sustainability criteria using the analytical hierarchical process tool, Resour. Conserv. Recycl. 86 (2014) 149-159.   DOI
39 A. Wickham, H.-J. Steinmetz, P. O'Sullivan, M.I. Ojovan, Updating irradiated graphite disposal: project 'GRAPA' and the international decommissioning network, J. Environ. Radioact. 171 (2017) 34-40.   DOI
40 Vrishali Subramanian, Semenzin Elena, Danail Hristozov, Antonio Marcomini, Igor Linkov, Sustainable nanotechnology: defining, measuring and teaching, Nano Today 9 (1) (2014) 6-9.   DOI
41 EC, DIRECTIVE 85/337/EEC (AS AMENDED by DIRECTIVE 97/11/EC) INFORMAL CONSOLIDATION of DIRECTIVE 85/337/EEC on the Assessment of the Effects of Certain Public and Private Projects on the Environment as Amended by Council Directive 97/11/EC, EU, March 1997.